Loren Alegria - Nov 2020

Enclosed here are raw data collected Nov 2019 in Yacoby Lab at Harvard.  All the data in 'High-Energy Quasiparticle injection into Mesoscopic Superconductors' is included, and additional data that may be of interest.
	Necessarily, this data is less accessible than the data plotted in the figures, but should be straightforward to plot and export all the  data if necessary. The data is collected in Matlab using the lab's homebrewed 'Special Measure' data aquisition system, documented at https://github.com/yacobylab/special-measure, and formatted accordingly.  But if you simply open the data files using Matlab or Octave you may be able to infer how to obtain the data you wish
	Since this is the original data, in many cases there are multiplicative factors that need to be applied to various axes due, for example, to the presence of voltage dividers or amplifier gain settings.  It should in all cases be possible to infer these factors based on the figure data (i.e. 'Figure1data_NNano2020_LDA.mat' etc).

A synopsis of the data is below:

"AKSscan_..."
	383
Device 1: Vb = -0.6 to 0.6 mV, Bx = 0 to 2.5 T
	463
Device 2: Vg = 0 to 26 V
	470
Device 1 and Device 2: Vb = 0.1 to 0.4 mV, Vg = 0, Bx = -0.2 to 1 T
	472
Device 2: Vb = 0.2 to 0.4 mV, Vg = 25 to 30 V
	506
Device 1: Ic measurement: Vg = 0, Bz = 0 to 1 T
	516
Device 1: Vb = 0.2 to 0.25 mV, Vg = 36
	517
Device 1: Vb = 0.2 to 0.25 mV, Vg = 0
	526
Device 1: Ic measurement: Vg = 40 to 0 V 
	531
Device 1: Ic measurement: Vg = 35 V, Bz = 0 to 1.4 T
	535
Device 1: Ic measurement: Vg = 35 V, By = -0.2 to 0.6 T
	538
Device 1: Ic measurement: Vg = 35 V, Bx = 0 to 1 T
	543
Device 1: Ic measurement: Vg = 0 V, By = -0.2 to 0.6 T
	544
Device 1: Ic measurement: Vg = 0 V, Bx = 0 to 1 T
	548
Device 1: Vb = 0.1 to 0.4 mV, Vg = -40 to 40 V
	561
Device 1: Vb = -0.6 to 0.6 mV, B = 2 to 0 T
	562
Device 1: Vb = 0 to 0.6 mV, B = 2 T, Vg = 40 to 20 V
	580
Device 1: Vb = -0.6 to 0.6 mV, Vg = 20 to 42 V